COP I vesicles facilitate classical swine fever virus proliferation by transporting fatty acid synthase from the Golgi apparatus to the endoplasmic reticulum. [PDF]
J VirolZhang L +8 more
europepmc +1 more source
Enhancement of immune responses to classical swine fever virus E2 in mice by fusion or mixture with the porcine IL-28B. [PDF]
Appl Microbiol BiotechnolYuan H +18 more
europepmc +1 more source
Erratum for Roman-Sosa et al., "Virus-neutralizing monoclonal antibodies against bovine viral diarrhea virus and classical swine fever virus target conformational and linear epitopes on E2 glycoprotein subdomains". [PDF]
Microbiol SpectrRoman-Sosa G +6 more
europepmc +1 more source
Oral infectivity and 50% porcine infectious dose of classical swine fever virus JPN/1/2018 strain isolated from the first case in Japan. [PDF]
J Vet Med SciFukai K +4 more
europepmc +1 more source
Immunoinformatics design of an mRNA vaccine against classical swine fever virus using conserved E2 protein and NS3 T-lymphocyte epitopes. [PDF]
BioimpactsBanico EC +3 more
europepmc +1 more source
Gene Expression Signatures of Porcine Bone Marrow-Derived Antigen-Presenting Cells Infected with Classical Swine Fever Virus. [PDF]
VirusesCoronado L +8 more
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Functional analysis of replication determinantsin classical swine fever virus [PDF]
, 2016 Hadsbjerg, Johanne
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Essential role of <i>cis</i>-encoded mature NS3 in the genome packaging of classical swine fever virus. [PDF]
J VirolLamp B +7 more
europepmc +1 more source
Probability of classical swine fever virus introduction in the European Union : analysis and modelling [PDF]
Huirne, R.B.M. +2 more
core
Computational investigation in inhibitory effects of amantadine on classical swine fever virus p7 ion channel activity. [PDF]
Sci RepChen X, Wang X.
europepmc +1 more source